Information transmission method and apparatus

ABSTRACT

Methods and apparatus for transmitting information are provided. The method includes: a terminal device receives state indication information sent by a network device, the state indication information is used for indicating that the network device will switch from an ON state to an OFF state; and the terminal device performs cell selection according to the state indication information.

CROSS-REFERENCE TO RELATED APPLICATION(S)

This application is a 371 application of International Application No.PCT/CN2016/098300, filed on Sep. 7, 2016, the entire disclosure of whichis hereby incorporated by reference.

TECHNICAL FIELD

The present disclosure relates to the field of communication, inparticular to methods and apparatus for transmitting information in thefield of communication.

BACKGROUND

In a communication system at present, it is possible that a networkdevice needs to be turned off under certain conditions, for example,turned off for saving power, but a terminal device cannot learn thestate of the network device. If the network device is in an OFF stateand the terminal device is not aware that the network device is in theOFF state, the terminal device still sends data to the network device inthe OFF state, but the network device cannot receive the data; or theterminal device is not aware that the network device is in the OFF stateand still waits for data transmission from the network at a specifictime point. As such, the data cannot be normally received or sent by theterminal device, resulting in abnormal data transmission.

SUMMARY

Implementations of the present disclosure provide methods and apparatusfor transmitting information.

In a first aspect, a method for transmitting information is provided,and the method includes: receiving, by a terminal device, stateindication information sent by a network device, wherein the stateindication information is used for indicating the network device toswitch from an ON state to an OFF state; performing, by the terminaldevice, cell selection according to the state indication information.

In a first possible implementation mode of the first aspect, before theterminal device receives the state indication information sent by thenetwork device, the method further includes: determining, by theterminal device, a first receiving time point of receiving the stateindication information; and receiving, by the terminal device, the stateindication information sent by the network device includes: receiving,by the terminal device, the state indication information sent by thenetwork device at the first receiving time point.

In combination with the above possible implementation mode of the firstaspect, in a second possible implementation mode of the first aspect,receiving, by the terminal device, the state indication information sentby the network device includes: receiving, by the terminal device, thestate indication information sent by the network device at a time pointof receiving a paging message.

In combination with the above possible implementation modes of the firstaspect, in a third possible implementation mode of the first aspect,receiving, by the terminal device, the state indication information sentby the network device includes: starting, by the terminal device, atimer periodically or at a time point of receiving a paging message, andreceiving, by the terminal device, the state indication information sentby the network device when the timer expires.

A duration of the timer may be configured by the network or specified bya protocol.

In combination with the above possible implementation modes of the firstaspect, in a fourth implementation mode of the first aspect, receiving,by the terminal device, the state indication information sent by thenetwork device includes: receiving, by the terminal device, the stateindication information sent by the network device through a pagingmessage.

In combination with the above possible implementation modes of the firstaspect, in a fifth implementation mode of the first aspect, receiving,by the terminal device, the state indication information sent by thenetwork device includes: receiving, by the terminal device, the stateindication information sent by the network device through a systemmessage.

In combination with the above possible implementation modes of the firstaspect, in a sixth implementation mode of the first aspect, before theterminal device receives the state indication information sent by thenetwork device through the system message, the method further includes:receiving, by the terminal device, the paging message sent by thenetwork device, wherein the paging message carries change indicationinformation of the system message, and the change indication informationis used for indicating that the system message carries the stateindication information, or the change indication information is used forindicating that the system message has changed. Receiving, by theterminal device, the state indication information of the network devicesent by the network device through the system message includes:receiving, by the terminal device, the state indication information ofthe network device sent by the network device through the system messageaccording to the change indication information.

In combination with the above possible implementation modes of the firstaspect, in a seventh implementation mode of the first aspect, receiving,by the terminal device, the state indication information sent by thenetwork device includes: receiving, by the terminal device, the stateindication information of the network device sent by the network devicethrough a physical channel or a media access control protocol data unit(MAC PDU).

In connection with the above possible implementation modes of the firstaspect, in an eighth implementation mode of the first aspect, the stateindication information includes first time indication information usedfor indicating a duration when the network device is OFF. For example,the first time indication information may be a timer, and when the timerexpires, it is determined that the network device switches from the OFFstate to the ON state.

In combination with the above possible implementation modes of the firstaspect, in a ninth implementation mode of the first aspect, the stateindication information further includes second time indicationinformation used for indicating that the network device will be OFFafter a first time period after the terminal device receives the stateindication information.

In combination with the above possible implementation modes of the firstaspect, in a tenth implementation mode of the first aspect, the terminaldevice is a terminal device in an idle state, or the terminal device isa terminal device in an inactive state.

In a second aspect, a method for transmitting information is provided,and the method includes: determining, by a terminal device, a state of anetwork device according to whether first information sent by thenetwork device is received on a first physical resource block, whereinthe state of the network device includes an OFF state and an ON state;and performing, by the terminal device, cell selection when the terminaldevice determines that the network device is in the OFF state.

In a first possible implementation mode of the second aspect,determining, by the terminal device, the state of the network deviceaccording to whether the first information sent by the network device isreceived on the first physical resource block includes: determining, bythe terminal device, that the network device is in the OFF state whenthe terminal device does not receive the first information on the firstphysical resource block.

In combination with the above possible implementation mode of the secondaspect, in a second implementation mode of the second aspect,determining, by the terminal device, that the network device is in theOFF state when the terminal device does not receive the firstinformation on the first physical resource block, includes: determining,by the terminal device, that the network device is in the OFF state whenthe terminal device does not receive the first information on the firstphysical resource block at a time point of receiving a paging message.

In combination with the above possible implementation modes of thesecond aspect, in a third implementation mode of the second aspect, theterminal device is a terminal device in an idle state, or the terminaldevice is a terminal device in an inactive state.

In a third aspect, a method for transmitting information is provided,and the method includes: sending, by a network device, state indicationinformation of the network device to a terminal device, wherein thestate indication information is used for indicating that the networkdevice will switch from an ON state to an OFF state, to enable theterminal device to perform cell selection according to the stateindication information; switching the network device from the ON stateto the OFF state.

In a first possible implementation mode of the third aspect, before thenetwork device sends the state indication information of the networkdevice to the terminal device, the method further includes: determining,by the network device, a first sending time point of sending the stateindication information. Wherein sending, by the network device, thestate indication information of the network device to the terminaldevice includes: sending, by the network device, the state indicationinformation to the terminal device at the first sending time point.

In combination with the above possible implementation mode of the thirdaspect, in a second implementation mode of the third aspect, sending, bythe network device, the state indication information of the networkdevice to the terminal device includes: sending, by the network device,the state indication information to the terminal device at a time pointof sending a paging message.

In combination with the above possible implementation modes of the thirdaspect, in a third implementation mode of the third aspect, sending, bythe network device, state indication information of the network deviceto the terminal device includes: starting, by the network device, atimer periodically or at a time point of sending a paging message, andsending, by the network device, the state indication information to theterminal device when the timer expires.

In combination with the above possible implementation modes of the thirdaspect, in a fourth implementation mode of the third aspect, sending, bythe network device, the state indication information of the networkdevice to the terminal device includes: sending, by the network device,the state indication information to the terminal device through a pagingmessage.

In combination with the above possible implementation modes of the thirdaspect, in a fifth implementation mode of the third aspect, sending, bythe network device, the state indication information of the networkdevice to the terminal device includes: sending, by the network device,the state indication information to the terminal device through a systemmessage.

In combination with the above possible implementation modes of the thirdaspect, in a sixth implementation mode of the third aspect, before thenetwork device sends the state indication information to the terminaldevice through the system message, the method further includes: sending,by the network device, a paging message to the terminal device, whereinthe paging message carries change indication information of the systemmessage, and the change indication information is used for indicatingthat the system message carries the state indication information of thenetwork device, or the change indication information is used forindicating that the system message has changed. Sending, by the networkdevice, the state indication information to the terminal device throughthe system message includes: sending, by the network device, the stateindication information to the terminal device through the system messageaccording to the change indication information.

In combination with the above possible implementation modes of the thirdaspect, in a seventh implementation mode of the third aspect, sending,by the network device, the state indication information of the networkdevice to the terminal device includes: sending, by the network device,the state indication information to the terminal device through aphysical channel or a media access control protocol data unit (MAC PDU).

In combination with the above possible implementation modes of the thirdaspect, in an eighth implementation mode of the third aspect, the stateindication information includes first time indication information usedfor indicating a duration when the network device is OFF.

In combination with the above possible implementation modes of the thirdaspect, in a ninth implementation mode of the third aspect, the stateindication information further includes second time indicationinformation used for indicating that the network device will be OFFafter a first time period after the terminal device receives the stateindication information.

In combination with the above possible implementation modes of the thirdaspect, in a tenth implementation mode of the third aspect, the terminaldevice is a terminal device in an idle state, or the terminal device isa terminal device in an inactive state.

In a fourth aspect, a method for transmitting information is provided,and the method includes: sending, by the network device, firstinformation to a terminal device on a first resource block when anetwork device is in an ON state; determining, by the network device,not to send the first information to the terminal device on the firstresource block when the network device is in an OFF state.

In a first possible implementation mode of the fourth aspect, sending,by the network device, the first information to the terminal device onthe first resource block when the network device is in the ON stateincludes: sending the first information to the terminal device on thefirst resource block when the network device is in the ON state at atime point of sending a paging message. Determining, by the networkdevice, not to send the first information to the terminal device on thefirst resource block when the network device is in the OFF stateincludes: determining, by the network device, not to send the firstinformation to the terminal device on the first resource block at a timepoint of sending a paging message when the network device is in the OFFstate.

In a fifth aspect, an apparatus for transmitting information is providedfor performing the method in any possible implementation mode of thefirst aspect or the first aspect described above. Specifically, theapparatus includes units for performing the method in the first aspector any possible implementation mode of the first aspect described above.

In a sixth aspect, an apparatus for transmitting information is providedfor performing the method in any possible implementation mode of thesecond aspect or the second aspect described above. Specifically, theapparatus includes units for performing the method in the second aspector any possible implementation mode of the second aspect describedabove.

In a seventh aspect, an apparatus for transmitting information isprovided for performing the method in any possible implementation modeof the third aspect or the third aspect described above. Specifically,the apparatus includes units for performing the method in the thirdaspect or any possible implementation mode of the third aspect describedabove.

In an eighth aspect, an apparatus for transmitting information isprovided for performing the method in any possible implementation modeof the fourth aspect or the fourth aspect described above. Specifically,the apparatus includes units for performing the method in the fourthaspect or any possible implementation mode of the fourth aspectdescribed above.

In a ninth aspect, an apparatus for transmitting information isprovided, and the apparatus includes a receiver, a transmitter, amemory, a processor, and a bus system. The receiver, the transmitter,the memory, and the processor are connected through the bus system, andthe memory is used for storing instructions, and the processor is usedfor executing the instructions stored in the memory to control thereceiver to receive signals and control the transmitter to send signals.When the processor executes the instructions stored in the memory, theexecution causes the processor to perform the method in the first aspector any possible implementation mode of the first aspect.

In a tenth aspect, an apparatus for transmitting information isprovided, and the apparatus includes a receiver, a transmitter, amemory, a processor, and a bus system. The receiver, the transmitter,the memory, and the processor are connected through the bus system, andthe memory is used for storing instructions, and the processor is usedfor executing the instructions stored in the memory to control thereceiver to receive signals and control the transmitter to send signals.When the processor executes the instructions stored in the memory, theexecution causes the processor to perform the method in the secondaspect or any possible implementation mode of the second aspect.

In an eleventh aspect, an apparatus for transmitting information isprovided, and the apparatus includes a receiver, a transmitter, amemory, a processor, and a bus system. The receiver, the transmitter,the memory, and the processor are connected through the bus system, andthe memory is used for storing instructions, the processor is used forexecuting the instructions stored in the memory to control the receiverto receive signals and control the transmitter to send signals. When theprocessor executes the instructions stored in the memory, the executioncauses the processor to perform the method in the third aspect or anypossible implementation mode of the third aspect.

In a twelfth aspect, an apparatus for transmitting information isprovided, and the apparatus includes a receiver, a transmitter, amemory, a processor, and a bus system. The receiver, the transmitter,the memory, and the processor are connected through the bus system, thememory is used for storing instructions, the processor is used forexecuting the instructions stored in the memory to control the receiverto receive signals and control the transmitter to send signals. When theprocessor executes the instructions stored in the memory, the executioncauses the processor to perform the method in the fourth aspect or anypossible implementation mode of the fourth aspect.

In a thirteenth aspect, a system for transmitting information isprovided, including the apparatus according to the fifth aspect and theapparatus according to the seventh aspect.

In a fourteenth aspect, a system for transmitting information isprovided, including the apparatus according to the sixth aspect and theapparatus according to the eighth aspect.

In a fifteenth aspect, a computer readable medium is provided forstoring a computer program, and the computer program includesinstructions for performing the method in the first aspect or anypossible implementation mode of the first aspect.

In a sixteenth aspect, a computer readable medium is provided forstoring a computer program, and the computer program includesinstructions for performing the method in the second aspect or anypossible implementation mode of the second aspect.

In a seventeenth aspect, a computer readable medium is provided forstoring a computer program, and the computer program includesinstructions for performing the method in the third aspect or anypossible implementation mode of the third aspect.

In an eighteenth aspect, a computer readable medium is provided forstoring a computer program, and the computer program includesinstructions for performing the method in the fourth aspect or anypossible implementation mode of the fourth aspect.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to explain the technical schemes of implementations of thepresent disclosure more clearly, drawings referred to in the descriptionof the implementations or the related art will be briefly introducedbelow. Obviously, the drawings in the following description are onlysome implementations of the present disclosure. For those of ordinaryskill in the art, other drawings may be obtained according to thosedrawings without paying an inventive effort.

FIG. 1 is a schematic diagram of a method for transmitting informationaccording to an embodiment of the present disclosure.

FIG. 2 is a schematic diagram of another method for transmittinginformation according to an embodiment of the present disclosure.

FIG. 3 is a schematic diagram of yet another method for transmittinginformation according to an embodiment of the present disclosure.

FIG. 4 is a schematic diagram of still another method for transmittinginformation according to an embodiment of the present disclosure.

FIG. 5 is a schematic block diagram of an apparatus for transmittinginformation according to an embodiment of the present disclosure.

FIG. 6 is a schematic block diagram of another apparatus fortransmitting information according to an embodiment of the presentdisclosure.

FIG. 7 is a schematic block diagram of yet another apparatus fortransmitting information according to an embodiment of the presentdisclosure.

FIG. 8 is a schematic block diagram of still another apparatus fortransmitting information according to an embodiment of the presentdisclosure.

FIG. 9 is a schematic block diagram of a system for transmittinginformation according to an embodiment of the present disclosure.

FIG. 10 is a schematic block diagram of another system for transmittinginformation according to an embodiment of the present disclosure.

FIG. 11 is a schematic block diagram of an apparatus for transmittinginformation according to an embodiment of the present disclosure.

FIG. 12 is a schematic block diagram of another apparatus fortransmitting information according to an embodiment of the presentdisclosure.

FIG. 13 is a schematic block diagram of yet another apparatus fortransmitting information according to an embodiment of the presentdisclosure.

FIG. 14 is a schematic block diagram of still another apparatus fortransmitting information according to an embodiment of the presentdisclosure.

DETAILED DESCRIPTION

Technical schemes in implementations of the present disclosure will bedescribed clearly and completely in the following with reference to thedrawings in the implementations of the present disclosure. Obviously,the described implementations are part, but not all, of implementationsof the present disclosure. Based on the implementations of the presentdisclosure, all other implementations obtained by a person of ordinaryskill in the art without paying an inventive effort are within theprotection scope of the present disclosure.

It should be understood that the technical schemes of theimplementations of the present disclosure may be applied to variouscommunication systems, such as Global System of Mobile communication(GSM) system, Code Division Multiple Access (CDMA) system, Wideband CodeDivision Multiple Access (WCDMA) system, General Packet Radio Service(GPRS) system, Long Term Evolution (LTE) system, LTE Frequency DivisionDuplex (FDD) system, LTE Time Division Duplex (TDD) system, UniversalMobile Telecommunication System (UMTS) or Worldwide Interoperability forMicrowave Access (WiMAX) communication system, and other communicationsystems that may emerge in future.

It should also be understood that in implementations of the presentdisclosure, the terminal device may be referred to as User Equipment(UE), terminal device, Mobile Station (MS), Mobile Terminal, or terminaldevice in future 5G network, etc. The terminal device may communicatewith one or more core networks via a Radio Access Network (RAN). Forexample, the terminal may be a mobile phone (or called “cellular” phone)or a computer with a mobile terminal, etc. For another example, theterminal may be portable, pocket-sized, hand-hold, built-in-computer, orvehicle-mounted mobile device. The terminal device exchanges voiceand/or data with a wireless access network.

A network device may be used to communicate with mobile devices. Thenetwork device may be a Base Transceiver Station (BTS) in Global Systemof Mobile Communication (GSM) or Code Division Multiple Access (CDMA),or a base station (NodeB, NB) in Wideband Code Division Multiple Access(WCDMA), or an Evolution Node B (eNB or eNodeB) in LTE, or a relay oraccess point, or a vehicle-mounted device, wearable device or an accessnetwork device in future 5G network.

In an embodiment of the present disclosure, a state of a network devicemay be from an ON state to an OFF state, or from an OFF state to an ONstate, or the state of the network device may be between an ON state andan OFF state, or the state of the network device may be a state definedin a future network system, which is not restricted in implementationsof the present disclosure.

In an embodiment of the present disclosure, an idle state of a terminaldevice refers to a state in which context information the terminaldevice is not retained at the access network device side, there is noradio resource control (RRC) connection between the terminal device andthe access network device, and control plane connection and data planeconnection between the access network device and the core network deviceare released.

In an embodiment of the present disclosure, an inactive state of aterminal device refers to a state in which at least part of the contextinformation of the terminal device is retained at the access networkdevice side, and there is a control plane connection and a user planeconnection between the access network device and the core networkdevice. However, the terminal device in an inactive state may not reportstate information to the access network device in real time, and thusthe core network device may not sense the movement of the terminaldevice when the terminal device moves. For example, when the terminaldevice moves from the range covered by a first base station to the rangecovered by a second base station, and the terminal device needs totransmit a little data, it may not need to hand over from the firststation to the second station, instead, it transmits the data to thefirst station through the second station directly, thus the signalingoverhead due to handover can be saved. Of course, the terminal device inan inactive state can process background services and small packettransmission, and it can perform a small amount of connection managementand so on.

FIG. 1 shows a schematic flowchart of a method 100 for transmittinginformation according to an embodiment of the present disclosure. FIG. 1shows acts or operations of a method for transmitting information, butthese acts or operations are merely examples, and other operations orvariations of the operations shown in FIG. 1 may be performed inimplementations of the present disclosure. The method 100 includes actsS110 and S120.

In S110, a network device sends state indication information of thenetwork device to a terminal device, and the state indicationinformation is used for indicating that the network device will switchfrom an ON state to an OFF state, to enable the terminal device toperform cell selection according to the state indication information.

In S120, the network device switches from the ON state to the OFF state.

FIG. 2 shows a schematic flowchart of a method 200 for transmittinginformation according to an embodiment of the present disclosure. FIG. 2shows acts or operations of a method for transmitting information, butthese acts or operations are merely examples, and other operations orvariations of the operations shown in FIG. 2 may be performed inimplementations of the present disclosure. The method 200 includes actsS210 and S220.

In S210, a terminal device receives state indication information sent bya network device, and the state indication information is used forindicating that the network device will switch from an ON state to anOFF state.

In S220, the terminal device performs cell selection according to thestate indication information.

Specifically, the network device sends its state indication informationto the terminal device, and the terminal device may receive the stateindication information and may determine that the network device is toswitch from the ON state to the OFF state according to the receivedstate indication information. The terminal device may select or reselectanother cell to reside in after the terminal device acquires the stateindication information of the network device. For example, a terminaldevice in a data connection state may perform handover according to thestate indication information, and a terminal device in an idle state mayreselect a cell according to the state indication information, thusensuring normal transmission of data by the terminal devices in othercells. Of course, when a terminal device learns the state of a networkdevice, the terminal device may still be in the cell covered by thenetwork device when it does not need to transmit data.

Therefore, according to the state indication information, the terminaldevice may determine that the network device is to switch from an ONstate to an OFF state, and it may select or reselect another cell toreside in, thus ensuring normal transmission of data by the terminaldevice in another cell. Of course, when a terminal device learns a stateof a network device, the terminal device may still reside in a cellcovered by the network device when there is no data to be transmitted.

Furthermore, for a terminal device in an idle state or an inactivestate, when a network device needs to be OFF, the terminal device in theidle state or inactive state cannot learn the state of the networkdevice, so the state indication information of the network device issent to the terminal device in the idle state or inactive state. Thusthe terminal device in the idle state or inactive state may select a newcell to reside in according to the state of the network device. Ofcourse, the terminal device in the idle state or inactive state mayselect a new cell to reside in when there is data to be transmitted, andthe terminal device in the idle state or inactive state may still residein the cell of the current network device when there is no data to betransmitted.

Optionally, a specific manner by which the network device informs theterminal device of the state information of the network device may bespecified in a network protocol or configured by the network, which isnot restricted in implementations of the present disclosure. Forexample, it may be specified for the network device and the terminaldevice in a protocol that, when the network device sends a specialsignal on a specific first physical resource block, for example, thespecial signal is first information, when the terminal device canreceive the first information on the first physical resource block, itdetermines that the network device is in an ON state currently; when theterminal device cannot receive the first information on the firstphysical resource block, it determines that the network device is in anOFF state currently, and the terminal device may select another cell toreside in.

As an optional embodiment, the state indication information includesfirst time indication information, which is used to indicate informationof a duration when the network device is OFF. As such, after theterminal device receives the state indication information, it maydetermine the time when the network device is OFF according to theduration when the network device is OFF. For example, the durationinformation may be of a timer, and after the timer expires, the terminaldevice may determine that the network device is in an ON state, and itmay reselect a cell covered by the network device or re-evaluate thecell covered by the network device to determine whether to select thecell covered by the network device.

The terminal device may determine a duration when the network is OFFaccording to the first time indication information in the stateindication information, and after the terminal device learns theduration when the network device is OFF, the network device will switchfrom the OFF state to the ON state after the duration when the networkdevice is OFF, thus the terminal device may reselect or evaluate thecell of the network device again. Optionally, after the terminal deviceobtains the duration when the network device is OFF, when the terminaldevice needs to transmit data during the duration when the networkdevice is OFF, the terminal device reselects a cell covered by anothernetwork device. When the terminal device does not need to transmit dataduring the time period when the network device is OFF, the terminaldevice may continue to be in the cell covered by the network device.

As an optional embodiment, the state indication information furtherincludes second time indication information for indicating that thenetwork device will be OFF after a first time period after the terminaldevice receives the state indication information. The network device mayindicate that the network device is to be OFF after a first time period,in the state indication information, and the network device is OFF afterthe first time period after sending the state indication information tothe terminal device. After receiving the state indication information,the terminal device may determine that the network device will be OFF,that is, will be OFF after the first time period. For example, a timermay be used to time the first time period and the network device will beOFF when the timer expires.

In this way, the terminal device may learn that the network device willbe OFF after the first time period, and the terminal device processesunfinished data within the first time period, such as completing cellreselection or handover within the first time period, to ensure datacontinuity.

As an optional embodiment, before S110, the method 100 further includes:the network device determines a first sending time point of sending thestate indication information. In S110, the network device sends thestate indication information to the terminal device at the first sendingtime point. Before S210, the method 200 further includes: the terminaldevice determines a first receiving time point of receiving the stateindication information. In S210, the terminal device receives the stateindication information sent by the network device at the first receivingtime point.

Optionally, the terminal device determines that the first receiving timepoint of receiving the state indication information may be a time pointof receiving other information in the related art, such as a time pointof receiving a paging message; or, the first receiving time point may bea periodic time point, or an aperiodic time point, or a periodic andaperiodic alternate time point; or, the first receiving time point maybe any time point within a time period during which reception may beallowed. The specific time point of receiving the state indicationinformation may be configured by the network or specified by a protocol.

Specifically, the network device may send the state indicationinformation at the first sending time point, the terminal device mayreceive the state indication information at the first receiving timepoint. Assuming that there is no time delay of data sending, the firstsending time point may be the same time point as the first receivingtime point. If there is a time delay of data sending, the network devicemay determine the first sending time point of sending the stateindication information according to the time delay, so as to ensure thatthe terminal device can receive the state indication information at thefirst receiving time point. Specifically, the first sending time pointand the first receiving time point may be specified in a networkprotocol, or the network device may configure the first receiving timepoint to ensure that the terminal device can receive the stateindication information at the first receiving time point when thenetwork device sends the state indication information at the firstsending time point. Implementations of the present disclosure are notlimited thereto.

It should be understood that the network device may send stateindication information to multiple terminal devices. The network devicemay send state indication information to multiple terminal devices atthe same time, and the multiple terminal devices receive the stateindication information sent by the network device at the same time.Alternatively, the network device may periodically send state indicationinformation to multiple terminal devices, and a specific terminal devicereceives the state indication information sent by the network deviceonly at the time when it wakes up.

There are two implementation modes for a network device to determine thefirst sending time point of sending the state indication information,and two implementation modes for a terminal device to determine thefirst receiving time point of receiving the state indicationinformation. In the first implementation mode in which the networkdevice determines the first sending time point of sending the stateindication information, the network device determines a time point ofsending a paging message as the first sending time point of sending thestate indication information. In the first implementation mode in whichthe terminal device determines the first receiving time point ofreceiving the state indication information, the terminal devicedetermines the time point of receiving the paging message according to apaging period configured by the network device, and the terminal devicedetermines the time point of receiving the paging message as the firstreceiving time point of receiving the state indication information. Inthe second implementation mode in which the network device determinesthe first sending time point of sending the state indicationinformation, when a timer expires, the time point when the timer expiresis determined as the first sending time point of sending the stateindication information. In the second implementation mode in which theterminal device determines the first receiving time point of receivingthe state indication information, when the timer expires, the time pointwhen the timer expires is determined as the first receiving time point.

Further, timing durations of timers of the network device and theterminal device may be specified in a protocol, or the timing durationof the timer of the terminal device may be configured by the networkdevice. The timer of the terminal device may be started periodically,and a time point when the timer expires is determined as the firstreceiving time point of receiving the state indication information bythe terminal device. Alternatively, the timer is started at a time pointof receiving a paging message, and a time point when the timer expiresis the first time point of receiving the state indication information.The timer of the network device may be started periodically, and a timepoint when the timer expires is determined as the first sending timepoint of sending state indication information by the network device.Alternatively, the timer is started at a time point of sending a pagingmessage, and a time point when the timer expires is the first sendingtime point of sending the state indication information.

Of course, the network device may not determine the first sending timepoint of sending the state indication information, and the terminaldevice may not determine the first receiving time point of receiving thestate indication information. For example, the time points of sendingand receiving the state indication information may be specified in aprotocol or configured by the network. Optionally, in S110, the networkdevice sends the state indication information to the terminal device ata time point of sending a paging message. In S210, the terminal devicereceives the state indication information sent by the network device ata time point of receiving the paging message. Optionally, in S110, thenetwork device periodically starts a timer or starts a timer at a timepoint of sending a paging message, and when the timer expires, thenetwork device sends the state indication information to the terminaldevice. In S210, the terminal device periodically starts a timer orstarts a timer at a time point of receiving the paging message, and whenthe timer expires, the terminal device receives the state indicationinformation sent by the network device.

The network device sends the state indication information of the networkdevice to the terminal device, and the terminal device receives thestate indication information sent by the network device, which may berealized in the following four implementation modes.

In the first implementation mode, the network device sends the stateindication information to the terminal device through a paging message,and the terminal device receives the state indication information sentby the network device through the paging message. The network device maysend the paging message to the terminal device at a time point forsending a paging message, and the terminal device receives the pagingmessage at a time point for receiving a paging message to obtain thestate indication information of the network device in the pagingmessage. Optionally, of course, the network device may configure a timerfor receiving the paging message for the terminal device, or it may sendthe paging message to the terminal device according to a set time of atimer specified by a protocol, and the terminal device receives thepaging message sent by the network device according to the set time ofthe timer specified by the protocol or configured by the network.

In the second implementation mode, the network device sends the stateindication information to the terminal device through a system message,and the terminal device receives the state indication information sentby the network device through a system message. Of course, the networkdevice may configure a timer for the terminal device to receive thesystem message, or it may send the system message to the terminal devicewhen a set time of a timer specified by a protocol expires, and theterminal device receives the system message sent by the network devicewhen the set time of the timer specified by the protocol or configuredby the network expires. The timer of the network device may be startedperiodically, and the timer of the terminal device may be startedperiodically. Of course, intervals of different durations may be set forthe timer and the timer is started when each of the different durationsexpires. The specific time of starting the timer may be configured bythe network or specified by the protocol, and the implementations of thepresent disclosure are not limited thereto. Optionally, the networkdevice may send the system message to the terminal device at a timepoint of sending a paging message, and the terminal device receives thesystem message at a time point of receiving the paging message to obtainthe state indication information of the network device in the systemmessage. Of course, the network device may send the system messagecarrying the state indication information to the terminal deviceaccording to a time point for sending a system message in the relatedart, and the terminal device receives the system message carrying thestate indication information according to a time point for receiving asystem message.

That is, an existing paging message is used to carry the changeindication information indicating that the system message has changed toinform that the system message has changed, or to inform that new stateindication information is added to the system message to notify theterminal device that the state information is carried in the systemmessage.

In the third implementation mode, the network device sends a pagingmessage to the terminal device, the paging message carries changeindication information of a system message, and the change indicationinformation is used to indicate that the system message carries thestate indication information of the network device, or the changeindication information is used to indicate that the system message haschanged, and then the network device sends the changed system message tothe terminal device, and the system message carries the state indicationinformation. The terminal device receives the paging message sent by thenetwork device, determines that the system message has changed accordingto the change indication information of the system message in the pagingmessage, or it determines that the system message carries the stateindication information, and then the terminal device receives thechanged system message and determines the state indication informationin the system message. Specifically, the network device may send thepaging message carrying the change indication information to theterminal device at a time point for sending a paging message, and theterminal device receives the paging message carrying the changeindication information at a time point for receiving a paging message.The network device may send the system message carrying the stateindication information to the terminal device at a time point forsending a system message, and the terminal device receives the systemmessage carrying the state indication information sent by the networkdevice at a time point for receiving a system message. Optionally, thenetwork device sends the paging message carrying the change indicationinformation to the terminal device when a first timer expires, and theterminal device receives the paging message carrying the changeindication information sent by the network device when a second timerexpires. The network device sends the system message carrying the stateindication information to the terminal device when a third timerexpires, and the terminal device receives the system message carryingthe state indication information sent by the network device when afourth timer expires. Of course, timing durations set for the firsttimer and the second timer may be equal or unequal, and timing durationsset for the third timer and the fourth timer may be equal or unequal.Optionally, the network device may send the paging message carrying thechange indication information to the terminal device when the firsttimer expires, and the terminal device may receive the paging messagecarrying the change indication sent by the network device when thesecond timer expires, of course timing durations set for the first timerand the second timer may be equal or unequal. The network device sendsthe system message carrying the state indication information to theterminal device at a time point for sending a system message, and theterminal device receives the system message carrying the stateindication information sent by the network device at a time point forreceiving a system message. Optionally, the network device may send thepaging message carrying the change indication information at a timepoint for sending a paging message, and the terminal device may receivethe paging message carrying the change indication information at a timepoint for receiving a paging message. The network device may send thesystem message carrying the state indication information at a time pointfor sending a paging message, and the terminal device may receive thesystem message carrying the state indication information at a time pointfor receiving a paging message.

In the fourth implementation mode, the network device sends the stateindication information to the terminal device through a physical channelor a Media Access Control Protocol Data Unit (MAC PDU); the terminaldevice receives the state indication information of the network devicesent by the network device through the physical channel or the MAC PDU.The network device may send the state indication information through thephysical channel or the MAC PDU at a time point for sending a pagingmessage, and the terminal device receives the state indicationinformation sent on the physical channel or in the MAC PDU at a timepoint for receiving a paging message. Of course, the network device mayconfigure for the terminal device a timer of sending the stateindication information through the physical channel or MAC PDU, or itmay send the state indication information to the terminal device throughthe physical channel or MAC PDU according to a set time of a timerspecified by a protocol, and the terminal device receives a pagingmessage sent by the network device through the physical channel or MACPDU according to the set time of the timer specified by the protocol orconfigured by the network.

FIG. 3 shows a schematic flowchart of a method 300 for transmittinginformation according to an implementation of the present disclosure.FIG. 3 shows acts or operations of a method for transmittinginformation, but these acts or operations are merely examples, and otheroperations or variations of the operations shown in FIG. 3 may beperformed in implementations of the present disclosure. The method 300includes acts S310 and S320.

In S310, when a network device is in an ON state, the network devicesends first information to a terminal device on a first resource block.

In S320, when the network device is in an OFF state, the network devicedoes not send the first information to the terminal device on the firstresource block.

FIG. 4 shows a schematic flowchart of a method 400 for transmittinginformation according to an implementation of the present disclosure.FIG. 4 shows acts or operations of a method for transmittinginformation, but these acts or operations are merely examples, and otheroperations or variations of the operations shown in FIG. 4 may beperformed in implementations of the present disclosure. The method 400includes acts S410 and S420.

In S410, a terminal device determines a state of a network deviceaccording to whether first information sent by the network device isreceived on a first physical resource block, and states of the networkdevice include an OFF state and an ON state.

In S420, when the terminal device determines that the network device isin the OFF state, the terminal device performs cell selection.

As an optional implementation, in S410, when the terminal device doesnot receive the first information on the first physical resource block,the terminal device determines that the network device is in the OFFstate. The first information is a special signal that can be recognizedby both the network device and the terminal device to indicate the stateof the network device.

As an optional implementation, in S420, when the network device is inthe OFF state, the network device does not send the first information tothe terminal device on the first resource block at the time point ofsending a paging message. When the terminal device does not receive thefirst information on the first physical resource block, the terminaldevice determines that the network device is in the OFF state, whichincludes: when the terminal device does not receive the firstinformation on the first physical resource block at the time point ofreceiving a paging message, the terminal device determines that thenetwork device is in the OFF state. Optionally, in S310, the firstinformation is sent to the terminal device on the first resource blockat the time point of sending the paging message when the network deviceis in an ON state.

It should be understood that the time point when the network devicesends or does not send the first information on the first resource blockmay be determined by a timer, and implementations of the presentdisclosure are not limited thereto.

Specifically, the network device sends the first information on thefirst resource block which may be the first resource block configured bythe network device or specified by a protocol. For example, the networkdevice configures the terminal device to receive the first informationon the first resource block. Alternatively, the protocol specifies thatthe network device sends the first information on the first resourceblock and the terminal device receives the first information on thefirst resource block. Implementations of the present disclosure are notlimited thereto. Of course, the network device may configure theterminal device to determine that the network device is in the OFF statewhen the terminal device does not receive the first information formultiple times within a specific period of time. Because it is possiblethat the network device does not send the first information to theterminal device on time for reasons such as network congestion, hence athreshold value may be set for the number of times of receiving thefirst information. The network device is determined to be in the OFFstate when the number of times of receiving the first information isgreater than the threshold value, and the network device is determinedto be in the ON state when the number of times of receiving the firstinformation is less than the threshold value, implementations of thepresent disclosure are not limited thereto.

As an optional implementation, the terminal device is a terminal devicein an idle state, or the terminal device is a terminal device in aninactive state. For a terminal device in a data connection state, thenetwork device may notify the terminal device through data signalinginteraction with the terminal device in the connection state, but thenetwork device cannot notify the terminal device which is in an idlestate or in an inactive state. Therefore, in the embodiment of thepresent disclosure, the state indication information is carried in thepaging message or in the system message, or the state indicationinformation is carried through the physical channel or the MAC PDU, tonotify the terminal device which is in an idle state or in an inactivestate of the state of the network device. Thus, the terminal devicewhich is in the idle state or inactive state may reselect another cellto ensure normal transmission of data.

It should be understood that, for the timer mentioned in theimplementations of the present disclosure, a timing duration of thetimer may be configured by the network device for the terminal device orspecified by a protocol, and implementations of the present disclosureare not limited thereto.

It should also be understood that the manners in which the stateindication information is sent and received in implementations of thepresent disclosure are merely examples, and the network device mayencapsulate the state indication information to be transmitted to theterminal device at any layer, which may specifically be radio resourcecontrol (RRC) layer, media access control (MAC) layer, or physicallayer, etc. Implementations of the present disclosure are not limitedthereto.

Methods for transmitting information according to implementations of thepresent disclosure have been described above with reference to FIGS. 1to 4. An apparatus and system for transmitting information according toimplementations of the present disclosure will be described below withreference to FIGS. 5 to 14.

FIG. 5 shows a schematic diagram of an apparatus 500 for transmittinginformation according to an implementation of the present disclosure,for example, the apparatus may be a terminal device in the method 200,and the apparatus 500 includes a receiving module 510 and a selectingmodule 520.

The receiving module 510 is configured to receive state indicationinformation sent by a network device, and the state indicationinformation is used to indicate that the network device will switch froman ON state to an OFF state.

The selecting module 520 is configured to perform cell selectionaccording to the state indication information.

As an optional implementation, the receiving module 510 is specificallyconfigured to receive the state indication information sent by thenetwork device at a time point of receiving a paging message.

As an optional implementation, the apparatus 500 further includes astarting module configured to start a timer periodically or start thetimer at a time point of receiving a paging message. The receivingmodule 510 is further configured to receive the state indicationinformation sent by the network device when the timer expires.

As an optional implementation, the receiving module 510 is furtherconfigured to receive the state indication information sent by thenetwork device through a paging message.

As an optional implementation, the receiving module 510 is furtherconfigured to receive the state indication information sent by thenetwork device through a system message.

As an optional implementation, the receiving module 510 is furtherconfigured to receive a paging message sent by the network device beforereceiving the state indication information sent by the network devicethrough a system message, and the paging message carries changeindication information of the system message, and the change indicationinformation is used to indicate that the system message carries thestate indication information, or the change indication information isused to indicate that the system message has changed. The receivingmodule 510 is further configured to receive the state indicationinformation of the network device sent by the network device through thesystem message according to the change indication information.

As an optional implementation, the receiving module 510 is furtherconfigured to receive the state indication information of the networkdevice sent by the network device through a physical channel or a mediaaccess control protocol data unit (MAC PDU).

As an optional implementation, the state indication information includesfirst time indication information for indicating a duration when thenetwork device is OFF.

As an optional implementation, the state indication information furtherincludes second time indication information for indicating that thenetwork device will be OFF after a first time period after the apparatus500 receives the state indication information.

As an optional implementation, the apparatus 500 is an apparatus in anidle state, or the apparatus 500 is an apparatus in an inactive state.

It should be understood that the apparatus 500 herein is embodied in aform of a functional module. The term “module” herein may refer to anApplication Specific Integrated Circuit (ASIC), an electronic circuit, aprocessor (e.g., shared processor, proprietary processor, or groupprocessor, etc.) for executing one or more software or firmware programsand a memory, a combinational logic circuit, and/or other suitablecomponents that support the described functions. In an optional example,those skilled in the art would understand that the apparatus 500 may beembodied as a terminal device in the above-described implementations,and the apparatus 500 may be configured to perform various processesand/or acts corresponding to the terminal device in the above-describedimplementation of the method 200, and will not be described here indetail for avoiding repetition.

FIG. 6 shows a schematic diagram of an apparatus 600 for transmittinginformation according to an implementation of the present disclosure,for example, the apparatus may be a terminal device in the method 400,and the apparatus 600 includes a determining module 610 and a selectingmodule 620.

The determining module 610 is configured to determine a state of anetwork device according to whether first information sent by thenetwork device is received on a first physical resource block. States ofthe network device include an OFF state and an ON state.

The selecting module 620 is configured to perform cell selection when itis determined that the network device is in the OFF state.

As an optional implementation, the determining module 610 isspecifically configured to determine that the network device is in theOFF state when the apparatus 600 does not receive the first informationon the first physical resource block.

As an optional implementation, the determining module 610 is furtherconfigured to determine that the network device is in the OFF state whenthe first information is not received on the first physical resourceblock at a time point of receiving a paging message.

It should be understood that the apparatus 600 herein is embodied in aform of a functional module. The term “module” herein may refer to anASIC, an electronic circuit, a processor (e.g., shared processor,proprietary processor, or group processor, etc.) for executing one ormore software or firmware programs and a memory, a combinational logiccircuit, and/or other suitable components that support the describedfunctions. In an optional example, those skilled in the art canunderstand that the apparatus 600 may be the terminal device in themethod 400 of the above-mentioned implementation, and the apparatus 600may be configured to perform various processes and/or acts correspondingto the terminal device in the above-mentioned method implementation, andwill not be described here in detail for avoiding repetition.

FIG. 7 shows a schematic diagram of an apparatus 700 for transmittinginformation according to an implementation of the present disclosure,for example, the apparatus may be a network device in the method 100,and the apparatus 700 includes a sending module 710 and a switchingmodule 720.

The sending module 710 is configured to send state indicationinformation of the apparatus to a terminal device, and the stateindication information is used to indicate that the apparatus willswitch from an ON state to an OFF state, to enable the terminal deviceto perform cell selection according to the state indication information.

The switching module 720 is configured to switch the apparatus 700 fromthe ON state to the OFF state.

As an optional implementation, the sending module 710 is specificallyconfigured to send the state indication information to the terminaldevice at a time point of sending a paging message.

As an optional implementation, the apparatus 700 further includes astarting module configured to start a timer periodically or start thetimer at a time point of sending a paging message. The sending module710 is also specifically configured to send the state indicationinformation to the terminal device when the timer expires.

As an optional implementation, the sending module 710 is specificallyconfigured to send the state indication information to the terminaldevice through a paging message.

As an optional implementation, the sending module 710 is furtherconfigured to send the state indication information to the terminaldevice through a system message.

As an optional implementation, the sending module 710 is furtherconfigured to send a paging message to the terminal device beforesending the state indication information to the terminal device througha system message, and the paging message carries the change indicationinformation of the system message, and the change indication informationis used to indicate that the system message carries the state indicationinformation, or the change indication information is used to indicatethat the system message has changed. The sending module 710 is furtherconfigured to send the state indication information to the terminaldevice through the system message according to the change indicationinformation.

As an optional implementation, the sending module 710 is furtherconfigured to send the state indication information to the terminaldevice through a physical channel or a media access control protocoldata unit (MAC PDU).

As an optional implementation, the state indication information includesfirst time indication information for indicating a duration when theapparatus 700 is OFF.

As an optional implementation, the state indication information furtherincludes second time indication information for indicating that theapparatus 700 will be OFF after a first time period after the terminaldevice receives the state indication information.

As an optional implementation, the terminal device is a terminal devicein an idle state, or the terminal device is a terminal device in aninactive state.

It should be understood that the apparatus 700 herein is embodied in aform of a functional module. The term “module” herein may refer to anASIC, an electronic circuit, a processor (e.g., shared processor,proprietary processor, or group processor, etc.) for executing one ormore software or firmware programs and a memory, a combinational logiccircuit, and/or other suitable components that support the describedfunctions. In an optional example, those skilled in the art mayunderstand that the apparatus 700 may be a network device in the method100 described above, and the apparatus 700 may be configured to performvarious processes and/or acts corresponding to the network device in theimplementation of the method 100 described above, and will not bedescribed here in detail for avoiding repetition.

FIG. 8 shows a schematic diagram of an apparatus 800 for transmittinginformation according to an implementation of the present disclosure,for example, the apparatus may be a network device in the method 300,and the apparatus 800 includes a sending module 810 and a determiningmodule 820.

The sending module 810 is configured to send first information to aterminal device on a first resource block when the apparatus 800 is inan ON state.

The determining module 820 is configured to determine not to send thefirst information to the terminal device on the first resource blockwhen the apparatus 800 is in an OFF state.

As an optional implementation, the sending module 810 is specificallyconfigured to send the first information to the terminal device on thefirst resource block at a time point of sending a paging message whenthe apparatus 800 is in the ON state. The determining module 820 isspecifically configured to determine not to send the first informationto the terminal device on the first resource block at a time point ofsending a paging message when the apparatus 800 is in the OFF state.

It should be understood that the apparatus 800 herein is embodied in aform of a functional module. The term “module” herein may refer to anASIC, an electronic circuit, a processor (e.g., shared processor,proprietary processor, or group processor, etc.) for executing one ormore software or firmware programs and a memory, a combinational logiccircuit, and/or other suitable components that support the describedfunctions. In an optional example, those skilled in the art mayunderstand that the apparatus 800 may be a network device in the method300 described above, and the apparatus 800 may be configured to performvarious processes and/or acts corresponding to the network device in themethod implementation described above, and will not be described here indetail for avoiding repetition.

FIG. 9 is a schematic block diagram of a system 900 for transmittinginformation according to an implementation of the present disclosure.The system 900 includes the apparatus 500 and the apparatus 700.

FIG. 10 is a schematic block diagram of a system 1000 for transmittinginformation according to an implementation of the present disclosure.The system 1000 includes the apparatus 600 and the apparatus 800.

FIG. 11 shows an apparatus 1100 for transmitting information provided byan implementation of the present disclosure. For example, the apparatus1100 may be a terminal device in the method 200, and the apparatus 1100includes a receiver 1110, a processor 1120, a transmitter 1130, a memory1140, and a bus system 1150. The receiver 1110, the processor 1120, thetransmitter 1130, and the memory 1140 are connected through a bus system1150, and the memory 1140 is used for storing instructions, and theprocessor 1120 is used for executing instructions stored in the memory1140 to control the receiver 1110 to receive signals and control thetransmitter 1130 to send instructions.

The receiver 1110 is configured to receive state indication informationsent by a network device, and the state indication information is usedto indicate that the network device will switch from an ON state to anOFF state. The processor 1120 is configured to perform cell selectionaccording to the state indication information.

As an optional implementation, the receiver 1110 is specificallyconfigured to receive the state indication information sent by thenetwork device at a time point of receiving a paging message.

As an optional implementation, the processor 1120 is also configured tostart a timer periodically or start the timer at a time point ofreceiving a paging message. The receiver 1110 is also specificallyconfigured to receive the state indication information sent by thenetwork device when the timer expires.

As an optional implementation, the processor 1120 is also specificallyconfigured to, when the timer expires, determine a time point when thetimer expires as a first receiving time point of receiving the stateindication information.

As an optional implementation, the receiver 1110 is specificallyconfigured to receive the state indication information sent by thenetwork device through a paging message.

As an optional implementation, the receiver 1110 is also specificallyconfigured to receive the state indication information sent by thenetwork device through a system message.

As an optional implementation, the receiver 1110 is further configuredto receive a paging message sent by the network device before receivingthe state indication information sent by the network device through asystem message, and the paging message carries change indicationinformation of the system message, and the change indication informationis used to indicate that the state indication information is carried inthe system message, or the change indication information is used toindicate that the system message has changed. The receiver 1110 is alsospecifically configured to receive the state indication information ofthe network device sent by the network device through the system messageaccording to the change indication information.

As an optional implementation, the receiver 1110 is also specificallyconfigured to receive the state indication information of the networkdevice sent by the network device through a physical channel or a mediaaccess control protocol data unit (MAC PDU).

As an optional implementation, the state indication information includesfirst time indication information for indicating a duration when thenetwork device is OFF.

As an optional implementation, the state indication information furtherincludes second time indication information for indicating that thenetwork device will be OFF after a first time period after the apparatus1100 receives the state indication information.

As an optional implementation, the apparatus 1100 is an apparatus in anidle state, or the apparatus 1100 is an apparatus in an inactive state.

It should be understood that the apparatus 1100 may be embodied as aterminal device in the above-described implementations and may beconfigured to perform various acts and/or processes corresponding to theterminal device in the above-described method implementations.Optionally, the memory 1140 may include a read only memory and a randomaccess memory and provide instructions and data to the processor. Aportion of the memory may also include a non-volatile random accessmemory. For example, the memory may also store device type information.The processor 1120 may be used for executing instructions stored in thememory, and when the processor executes the instructions, the processormay perform various acts corresponding to the terminal device in theimplementation of the method 200 described above.

FIG. 12 shows an apparatus 1200 for transmitting information provided byan implementation of the present disclosure. For example, the apparatusmay be a terminal device in the method 400, and the apparatus 1200includes a receiver 1210, a processor 1220, a transmitter 1230, a memory1240, and a bus system 1250. The receiver 1210, the processor 1220, thetransmitter 1230, and the memory 1240 are connected through the bussystem 1250, and the memory 1240 is used for storing instructions, andthe processor 1220 is used for executing instructions stored in thememory 1240 to control the receiver 1210 to receive signals and controlthe transmitter 1230 to send instructions.

The processor 1220 is configured to determine a state of a networkdevice according to whether first information sent by the network deviceis received on a first physical resource block, states of the networkdevice including an OFF state and an ON state; and when determining thatthe network device is in the OFF state, perform cell selection.

As an optional implementation, the processor 1220 is specificallyconfigured to determine that the network device is in the OFF state whenthe apparatus 1200 does not receive the first information on the firstphysical resource block.

As an optional implementation, the processor 1220 is also specificallyconfigured to determine that the network device is in the OFF state whenthe first information is not received on the first physical resourceblock at a time point of receiving a paging message.

It should be understood that the apparatus 1200 may be a terminal devicein the above-described implementations and may be configured to performvarious acts and/or processes corresponding to the terminal device inthe above-described method implementations. Optionally, the memory 1240may include a read only memory and a random access memory and provideinstructions and data to the processor. A portion of the memory may alsoinclude a non-volatile random access memory. For example, the memory mayalso store device type information. The processor 1220 may be configuredto execute instructions stored in the memory, and when the processorexecutes the instructions, the processor may perform various actscorresponding to the terminal device in the above methodimplementations.

FIG. 13 shows an apparatus 1300 for transmitting information provided byan implementation of the present disclosure. For example, the apparatusmay be a network device in the method 100, and the apparatus 1300includes a receiver 1310, a processor 1320, a transmitter 1330, a memory1340, and a bus system 1350. The receiver 1310, the processor 1320, thetransmitter 1330, and the memory 1340 are connected through the bussystem 1350, and the memory 1340 is used for storing instructions, andthe processor 1320 is used for executing instructions stored in thememory 1340 to control the receiver 1310 to receive signals and controlthe transmitter 1330 to send instructions.

The transmitter 1330 is configured to send state indication informationof the apparatus to a terminal device, and the state indicationinformation is used to indicate that the apparatus will switch from anON state to an OFF state, to enable the terminal device to perform cellselection according to the state indication information. The processor1320 is configured to switch the apparatus 1300 from the ON state to theOFF state.

As an optional implementation, the transmitter 1330 is specificallyconfigured to send the state indication information to the terminaldevice at a time point of sending a paging message.

As an optional implementation, the processor 1320 is also configured tostart a timer periodically or start the timer at a time point of sendinga paging message. The transmitter 1330 is also specifically configuredto send the state indication information to the terminal device when thetimer expires.

As an optional implementation, the processor 1320 is also specificallyconfigured to determine a time point when the timer expires as a firstsending time point of sending the state indication information.

As an optional implementation, the transmitter 1330 is also specificallyconfigured to send the state indication information to the terminaldevice through a paging message.

As an optional implementation, the transmitter 1330 is also specificallyconfigured to send the state indication information to the terminaldevice through a system message.

As an optional implementation, the transmitter 1330 is furtherconfigured to send a paging message to the terminal device beforesending the state indication information to the terminal device througha system message, and the paging message carries the change indicationinformation of the system message, and the change indication informationis used to indicate that the state indication information is carried inthe system message, or the change indication information is used toindicate that the system message has changed. The transmitter 1330 isalso specifically configured to send the state indication information tothe terminal device through the system message according to the changeindication information.

As an optional implementation, the transmitter 1330 is also specificallyconfigured to send the state indication information to the terminaldevice through a physical channel or a media access control protocoldata unit (MAC PDU).

As an optional implementation, the state indication information includesfirst time indication information for indicating a duration when theapparatus 1300 is OFF.

As an optional implementation, the state indication information furtherincludes second time indication information for indicating that theapparatus 1300 will be OFF after a first time period after the terminaldevice receives the state indication information.

As an optional implementation, the terminal device is a terminal devicein an idle state, or the terminal device is a terminal device in aninactive state.

It should be understood that the apparatus 1300 may be a network devicein the above-described implementations and may be configured to performvarious acts and/or processes corresponding to the network device in theabove-described method implementations. Optionally, the memory 1340 mayinclude a read only memory and a random access memory and provideinstructions and data to the processor. A portion of the memory may alsoinclude a non-volatile random access memory. For example, the memory mayalso store device type information. The processor 1320 may be used forexecuting instructions stored in the memory, and when the processorexecutes the instructions, the processor may perform various actscorresponding to the network device in the above method implementations.

FIG. 14 shows an apparatus 1400 for transmitting information provided byan implementation of the present disclosure. For example, the apparatusmay be a network device in the method 300, and the apparatus 1400includes a receiver 1410, a processor 1420, a transmitter 1430, a memory1440, and a bus system 1450. The receiver 1410, the processor 1420, thetransmitter 1430, and the memory 1440 are connected through the bussystem 1450, and the memory 1440 is used for storing instructions, andthe processor 1420 is used for executing instructions stored in thememory 1440 to control the receiver 1410 to receive signals and controlthe transmitter 1430 to send instructions.

The transmitter 1430 is configured to send first information to aterminal device on a first resource block when the apparatus 1400 is inan ON state. The processor 1420 is configured to determine not to sendthe first information to the terminal device on the first resource blockwhen the apparatus 1400 is in an OFF state.

As an optional implementation, the transmitter 1430 is specificallyconfigured to send the first information to the terminal device on thefirst resource block at a time point of sending a paging message whenthe apparatus 800 is in the ON state. The processor 1420 is specificallyconfigured to determine not to send the first information to theterminal device on the first resource block at a time point of sendingthe paging message when the apparatus 800 is in the OFF state.

It should be understood that the apparatus 1400 may be a network devicein the above-described implementations and may be configured to performvarious acts and/or processes corresponding to the network device in theabove-described method implementations. Optionally, the memory 1440 mayinclude a read only memory and a random access memory and provideinstructions and data to the processor. A portion of the memory may alsoinclude a non-volatile random access memory. For example, the memory mayalso store device type information. The processor 1420 may be used forexecuting instructions stored in the memory, and when the processorexecutes the instructions, the processor may perform various actscorresponding to the network device in the above method implementations.

It should be understood that in implementations of the presentdisclosure, the processor 1120, the processor 1220, the processor 1320,and the processor 1420 may be a central processing unit (CPU), or othergeneral purpose processors, digital signal processors (DSP), applicationspecific integrated circuits (ASIC), field programmable gate arrays(FPGA) or other programmable logic devices, discrete gate or transistorlogic devices, or discrete hardware components, etc. The general purposeprocessor may be a microprocessor or any conventional processor etc.

It should be understood that the term “and/or” herein is merely anassociation relationship describing associated objects, indicating thatthere may be three relationships, for example, a and/or b may indicatethree situations: a alone, a and b at the same time, and b alone. Inaddition, the symbol “/” in this document generally indicates that theobjects before and after the symbol are in an “or” relationship.

It should be understood that in various implementations of the presentdisclosure, the value of a sequence number in the above-mentionedprocess does not mean an order of execution, and an order of executionof each process should be determined by its function and internal logic,and should not constitute any limitation on an implementation process ofthe implementation of the present disclosure.

Those of ordinary skill in the art will recognize that the exemplaryelements and algorithm acts described in connection with theimplementations disclosed herein can be implemented in electronichardware, or a combination of computer software and electronic hardware.Whether these functions are performed in hardware or software depends onthe specific application and design constraints of the technicalsolution. Skilled in the art may use different methods to implement thedescribed functions for each particular application, but suchimplementation should not be considered to be beyond the scope of thepresent disclosure.

Those skilled in the art can clearly understand that for convenience andconciseness of description, corresponding processes in theaforementioned method implementations may be referred to for thespecific working processes of the system, device, and unit describedabove, which are not repeated here.

In several implementations provided by the present disclosure, it shouldbe understood that the disclosed system, apparatus and method may beimplemented in other ways. For example, the apparatus implementationsdescribed above are only illustrative, for example, the categorizationof the units is only a logical function categorization, and there may beother categorization modes in actual implementation. For example,multiple units or components may be combined or integrated into anothersystem, or some features may be ignored or not executed. On the otherhand, the mutual coupling or direct coupling or communication connectionshown or discussed may be indirect coupling or communication connectionthrough some interfaces, apparatuses or units, and may be electrical,mechanical or in other forms.

The unit described as a separate unit may or may not be physicallyseparated, and the unit shown as a unit may or may not be a physicalunit, i.e., may be located in one place or may be distributed overmultiple network units. Some or all of the elements can be selectedaccording to actual needs to achieve the purpose of the implementation.

In addition, various functional units in various implementations of thepresent disclosure may be integrated into one processing unit, may bephysically present in each unit alone, or two or more units may beintegrated into one unit.

The functions may be stored in a computer readable storage medium ifimplemented in the form of software functional units and sold or used asseparate products. Based on this understanding, the technical solutionof the present disclosure, in essence, or the part contributing to therelated art, or the part of the technical solution, may be embodied inthe form of a software product stored in a storage medium, includingseveral instructions for causing a computer device (which may be apersonal computer, a server, or a network device, etc.) to perform allor part of the acts of the method described in various implementationsof the present disclosure. The aforementioned storage media include Udisk, mobile hard disk, read-only memory (ROM), random access memory(RAM), magnetic disk or optical disk, and other media capable of storingprogram codes.

The foregoing are merely exemplary implementations of the presentdisclosure, but the protection scope of the present disclosure is notlimited thereto. Any person skilled in the art can easily conceivechanges or substitutions within the technical scope disclosed by thepresent disclosure, which should be included within the protection scopeof the present disclosure. Therefore, the protection scope of thepresent disclosure should be subject to the protection scope of theclaims.

I claim:
 1. A method for transmitting information, comprising: starting, by a terminal device, a timer periodically or at a time point of receiving a paging message; receiving, by the terminal device, state indication information sent by a network device when the timer expires, wherein the state indication information is used for indicating that the network device will switch from an ON state to an OFF state; performing, by the terminal device, cell selection according to the state indication information; determining, by the terminal device, the state of the network device according to whether first information sent by the network device is received on a first physical resource block, wherein states of the network device comprise the OFF state and the ON state; and performing, by the terminal device, cell selection when the terminal device determines that the network device is in the OFF state.
 2. The method of claim 1, wherein receiving, by the terminal device, the state indication information sent by the network device comprises: receiving, by the terminal device, the state indication information sent by the network device through a paging message, or, receiving, by the terminal device, the state indication information sent by the network device; receiving, by the terminal device, the state indication information sent by the network device through a system message.
 3. The method of claim 2, wherein before the terminal device receives the state indication information sent by the network device through the system message, the method further comprises: receiving, by the terminal device, a paging message sent by the network device, wherein the paging message carries change indication information of the system message, and the change indication information is used for indicating that the system message carries the state indication information, or the change indication information is used for indicating that the system message has changed; and receiving, by the terminal device, the state indication information of the network device sent by the network device through the system message comprises: receiving, by the terminal device, the state indication information of the network device sent by the network device through the system message according to the change indication information.
 4. The method of claim 1, wherein receiving, by the terminal device, the state indication information sent by the network device comprises: receiving, by the terminal device, the state indication information of the network device sent by the network device through a physical channel or a media access control protocol data unit (MAC PDU).
 5. The method of claim 1, wherein the terminal device is a terminal device in an idle state, or the terminal device is a terminal device in an inactive state.
 6. The method of claim 1, wherein determining, by the terminal device, the states of the network device according to whether the first information sent by the network device is received on the first physical resource block comprises: determining, by the terminal device, that the network device is in the OFF state when the terminal device does not receive the first information on the first physical resource block, and wherein determining, by the terminal device, that the network device is in the OFF state when the terminal device does not receive the first information on the first physical resource block comprises: determining, by the terminal device, that the network device is in the OFF state when the terminal device does not receive the first information on the first physical resource block at a time point of receiving a paging message.
 7. A method for transmitting information, comprising: starting, by a network device, a timer periodically or at a time point of sending a paging message; sending, by the network device, state indication information of the network device to a terminal device when the timer expires, wherein the state indication information is used for indicating that the network device will switch from an ON state to an OFF state, to enable the terminal device to perform cell selection according to the state indication information; switching the network device from the ON state to the OFF state; sending, by the network device, first information to the terminal device on a first resource block when the network device is in an ON state; and determining, by the network device, not to send the first information to the terminal device on the first resource block when the network device is in an OFF state.
 8. An apparatus for transmitting information, comprising: a receiver configured to receive state indication information sent by a network device when a timer expires, wherein the state indication information is used for indicating that the network device will switch from an ON state to an OFF state; and a processor configured to: perform cell selection according to the state indication information and start the timer periodically or at a time point of receiving a paging message; determine the state of the network device according to whether first information sent by the network device is received on a first physical resource block, wherein the states of the network device comprise the OFF state and the ON state; and perform cell selection when the network device is determined to be in the OFF state.
 9. The apparatus of claim 8, wherein the receiver is configured to: receive the state indication information sent by the network device at a time point of receiving a paging message.
 10. The apparatus of claim 8, wherein the receiver is further configured to: receive the state indication information sent by the network device through a paging message, or, wherein the receiver is specifically further configured to: receive the state indication information sent by the network device through a system message.
 11. The apparatus of claim 10, wherein the receiver is further configured to: receive a paging message sent by the network device before receiving the state indication information sent by the network device through the system message, wherein the paging message carries change indication information of the system message, and the change indication information is used for indicating that the system message carries the state indication information, or the change indication information is used for indicating that the system message has changed; and the receiver is specifically further configured to receive the state indication information of the network device sent by the network device through the system message according to the change indication information.
 12. The apparatus of claim 8, wherein the receiver is further configured to: receive the state indication information of the network device sent by the network device through a physical channel or a media access control protocol data unit (MAC PDU).
 13. The apparatus of claim 8, wherein the apparatus is an apparatus in an idle state or the apparatus is an apparatus in an inactive state.
 14. The apparatus of claim 8, wherein the processor is further configured to: determine that the network device is in the OFF state when the first information is not received on the first physical resource block, and wherein the processor is specifically further configured to: determine that the network device is in the OFF state when the first information is not received on the first physical resource block at a time point of receiving a paging message. 